1)supercell超晶胞
1.The optical properties and electrical structure of V in ZnS supercell have been computed by means of plane wave pseudo-potential method(PWP) with generalized gradient approximation(GGA).运用密度泛函平面波赝势方法(PWP)和广义梯度近似(GGA),对替代式掺杂钒(V)的闪锌矿(ZnS)的超晶胞电子结构进行了计算。
2)super cell超晶胞
1.Secondly,the equilibrium morphology calculations were processed on gibbsite 3×4×2 super cell and its (001),(100),(010),(011),(110),(101) and (112) slab models.首先,用BFDH法说明了生长过程中最重要的面;其次,采用晶体平衡形态(Equilibrium morphology)法,用Morphology程序对氢氧化铝3×4×2超晶胞及其(001),(100),(010),(011),(110),(101)和(112)面真空slab模型进行平衡形态计算,计算结果与实验结果吻合,很好地预测了各显露面族(001),(100),(010),(011),(110),(101)和(112)面族。
3)superfine cellular crystal超细胞晶
1.6μm and a novel "superfine cellular crystal", which is the extremely fine needle like cell .6μm的细枝晶和完全无侧向分枝的“超细胞晶”。
4)dendritic[英][den'dritik][美][d?n'dr?t?k]胞晶
1.Solution to the governing equation for dendritic growth and its transfer behavior;稳态胞晶生长控制方程的解析解及其传输行为
5)crystal cell晶胞
1.The calculation of crystal cell parameter, atom amount and crystal-plane's atom auount in nano-cordierite;纳米级堇青石晶胞参数、原子数和晶面原子数计算与研究
2.The calculation of crystal cell, atomicity and crystal plane atomicity of nano-kaolinite;纳米级高岭石晶胞数、原子数和晶面原子数的计算与研究
3.Moreover,crystal cell number,atomicity,surface cell number and surface atomicity in sphaterite g.为了研究闪锌矿纳米化过程中物理化学性质的变化,从闪锌矿的晶体结构和晶体化学组成的角度出发,依据闪锌矿的晶胞参数、晶胞内原子排列的特点,提出了纳米闪锌矿最小颗粒的假设,从理论上计算出了纳米闪锌矿的最佳尺度约为30nm,纳米闪锌矿的稳定尺寸约为180nm。
英文短句/例句
1.cubic (lattice) cell立方晶胞,立方点阵晶格
2.The unit cell of such a pattern.晶胞这种结构的单位细胞
3.Implementation of complete two-dimensional bandgap in photonic crystals of square Bravais lattice using complex unit cell利用复式晶胞实现二维正方形布拉菲格子光子晶体的完全带隙
4.Photoelectric Properties of two - dimensional Photonic Crystals of Square Lattice Calculated by FDTD Method;二维正方形复式晶胞光子晶体光电特性的FDTD计算分析
5.The Inquiry of Three Kinds of Common Crystal Structure of Metals and their Atom Numbers in the Crystal Cells;金属的三种常见的晶体结构及其晶胞原子数的研讨
6.Crystals and gum were common in the structure, and the cells containing crystals were mainly heterogeneous cells. Cell nucleus and cytoplasm of some species belonging to certain groups were abundant.结晶体和树胶常见,含晶细胞多呈异形,在某些组木材细胞中富含细胞核及细胞质。
7.Results The positive expression of CLC-3 was distributed in membrane of the lens epithelial cells.结果CLC-3阳性表达于晶状体上皮细胞的细胞膜。
8.When the cells lyse, the spores and crystals are released into the medium.当细胞凋亡后,芽胞和结晶体释放到培养基中
9.A matrix method to solve reciprocal lattice primitive cell and its drawing by using Matlab;倒易晶格原胞的矩阵算法和利用Matlab绘制原胞图
10.Physiological electric field inhibiting lens epithelial cell proliferation by controlling cell cycle电场暴露抑制晶状体上皮细胞的增殖
11.Crystalline cells regenerate and do not age or become ill.水晶细胞重生并不再老化或生病。
12.major intrinsic protein主要内在蛋白[见于晶状体纤维细胞膜]
13.The Mechanisms of αB-crystallin Against Apoptosis Induced by Hydrogen Peroxide in C_2C_(12) Cells;αB-晶状体蛋白抗细胞凋亡的机制研究
14.The Influences of the Solvents of KH902 Affect Human Lens Epithelial Cells;KH902溶剂对人晶状体上皮细胞的作用
15.Analyse of the Filament of the Lens Epithelial Cell in the Human Cataract;白内障晶状体上皮细胞的线粒体分析
16.Effects of Experimental Hypertension on Rabbit Lens Epithelial Cells;急性高眼压对兔晶体上皮细胞的影响
17.Simulation of Normal Grain Growth by Cellular Automaton晶粒正常长大过程的元胞自动机模拟
18.Expression of Aquaporin 1 in Lens Epithelial Cells of Clear Lens and Age-related Cataract透明晶状体和老年性白内障晶状体上皮细胞水通道蛋白1的表达
相关短句/例句
super cell超晶胞
1.Secondly,the equilibrium morphology calculations were processed on gibbsite 3×4×2 super cell and its (001),(100),(010),(011),(110),(101) and (112) slab models.首先,用BFDH法说明了生长过程中最重要的面;其次,采用晶体平衡形态(Equilibrium morphology)法,用Morphology程序对氢氧化铝3×4×2超晶胞及其(001),(100),(010),(011),(110),(101)和(112)面真空slab模型进行平衡形态计算,计算结果与实验结果吻合,很好地预测了各显露面族(001),(100),(010),(011),(110),(101)和(112)面族。
3)superfine cellular crystal超细胞晶
1.6μm and a novel "superfine cellular crystal", which is the extremely fine needle like cell .6μm的细枝晶和完全无侧向分枝的“超细胞晶”。
4)dendritic[英][den'dritik][美][d?n'dr?t?k]胞晶
1.Solution to the governing equation for dendritic growth and its transfer behavior;稳态胞晶生长控制方程的解析解及其传输行为
5)crystal cell晶胞
1.The calculation of crystal cell parameter, atom amount and crystal-plane's atom auount in nano-cordierite;纳米级堇青石晶胞参数、原子数和晶面原子数计算与研究
2.The calculation of crystal cell, atomicity and crystal plane atomicity of nano-kaolinite;纳米级高岭石晶胞数、原子数和晶面原子数的计算与研究
3.Moreover,crystal cell number,atomicity,surface cell number and surface atomicity in sphaterite g.为了研究闪锌矿纳米化过程中物理化学性质的变化,从闪锌矿的晶体结构和晶体化学组成的角度出发,依据闪锌矿的晶胞参数、晶胞内原子排列的特点,提出了纳米闪锌矿最小颗粒的假设,从理论上计算出了纳米闪锌矿的最佳尺度约为30nm,纳米闪锌矿的稳定尺寸约为180nm。
6)unit cell晶胞
1.The effect of metal salt deposition together with hydrothermal treatment of HY zeolite on unit cell shrinkage was studied.利用XRD技术研究了沉积金属盐结合水热处理引起的HY型沸石晶胞收缩。
延伸阅读
超复杂细胞超复杂细胞hypecomplex cell 超复杂细胞(hypeeompze、eelz)参见“特征检察器·。
